Astronomy and Astrophysics – Astrophysics
Scientific paper
1999-08-09
Astrophys.J. 528 (2000) 243
Astronomy and Astrophysics
Astrophysics
43 pages, 8 figures, accepted for publication in the Astrophysical Journal
Scientific paper
10.1086/308154
The TeV blazar PKS 2155-304 was monitored with the X-ray satellite ASCA in 1994 May, as part of a multiwavelength campaign from the radio to X-ray bands. At the beginning of the two-day continuous observation, we detected a large flare, where the 2-10 keV flux changed by a factor of 2 on a time scale of 3 x 10^4 sec. During the flare, the increase in the hard X-ray flux clearly preceded that observed in the soft X-rays, the spectral evolution tracking a `clockwise loop' in the flux versus photon index plane. Ascribing the energy-dependent variability to differential synchrotron cooling of relativistic electrons, we estimate the magnetic field B in the emission region. We tested two different methods of comparing the time series in various X-ray bands: (i) fitting the light curves to a Gaussian and searching for the time shift of the peak of the flare, and (ii) calculating the discrete correlation function. Both methods yielded a consistent solution of B ~ 0.1 G. We also found that the flare amplitude becomes larger as the photon energy increases, while the duration of the flare stays roughly constant through the ASCA energy band (0.7-7.5 keV). In the framework of the time dependent synchrotron self-Compton model in a homogeneous region, we consider a flare where the maximum Lorentz factor (Gmax) of the injected electrons increases uniformly throughout the emission volume. The temporal evolution of spectra as well as the light curves were reproduced with the physical parameters self-consistently determined from seven observables. We obtain B ~ 0.1-0.2 G and a region size R ~ 10^-2 pc, for relativistic beaming with a Doppler factor of D ~ 20-30. We discuss the significance of light travel time effects.
Inoue Susumu
Kataoka Jun
Kubo Harunobu
Madejski Greg M.
Makino Fumiyoshi
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